Effects of different color paper bags on aroma development of Kyoho grape berries

doi:10.1016/S2095-3119(18)62008-8

Journal of Integrative Agriculture

2019, Vol. 18

Issue (1): 70-82 DOI: 10.1016/S2095-3119(18)62008-8

Horticulture

Advanced Online Publication | Current Issue | Archive | Adv Search

Effects of different color paper bags on aroma development of Kyoho grape berries

JI Xiao-hao, WANG Bao-liang, WANG Xiao-di, SHI Xiang-bin, LIU Pei-pei, LIU Feng-zhi, WANG Hai-bo

Research Institute of Pomology, Chinese Academy of Agricultural Sciences/Key Laboratory of Biology and Genetic Improvement of Horticultural Crops (Germplasm Resources Utilization), Ministry of Agriculture, Xingcheng 125100, P.R.China

Abstract
References

Download: PDF in ScienceDirect
Export: BibTeX | EndNote (RIS)

摘要 Received 5 January, 2018 Accepted 7 May, 2018

Abstract

This study investigated the influence of red, green, blue, and white paper bags on the free volatile compound development of Kyoho grape berries from green to harvest. Seven functional groups of volatiles were identified during the development of Kyoho grape berries including esters, aldehydes, alcohols, terpenes, ketones, acids, and hydrocarbons. Esters and aldehydes were abundant in Kyoho grape berries, mainly represented by ethyl acetate, ethyl butyrate, and (E)-2-hexenal. They accumulated quickly after veraison and slightly decreased toward maturation. Red, green, blue, and white paper bags promoted the accumulation of esters and inhibited the accumulation of aldehydes, also inhibited the accumulation of alcohols, tepenes, ketones, and acids. Their effect from strong to weak was green, blue, red, and white paper bags. The expression profiles of genes in the lipoxygenase-hydroperoxide lyase (LOX-HPL) pathway were also analyzed and the results indicated that the regulation of red, green, blue, and white paper bags on aldehydes, alcohols, and esters volatile aromas was at transcriptional level. The results expanded our comprehension in grape aroma biosynthesis and berry bagging technique in table grape cultivation.

Keywords: bagging volatile aroma compound Kyoho fruit quality principal component analysis

Received: 05 January 2018 Accepted:

Fund: This work was supported by the earmarked fund for China Agriculture Research System (CARS-30), the Introduction of International Advanced Agricultural Science and Technology Program Project, Ministry of Agriculture, China (948 Program, 2011-G28), the National Key Technologies R&D Program of China during the 12th Five-Year Plan period (2014BAD16B05), and the Agricultural Science and Technology Innovation Program, Chinese Academy of Agricultural Sciences (CAAS-ASTIP-2015-RIP-04).

Corresponding Authors: Correspondence WANG Hai-bo, E-mail: haibo8316@163.com

About author: JI Xiao-hao, E-mail: jixiaohao2006@163.com;

	Service
	E-mail this article
	Add to citation manager
	E-mail Alert
	RSS

	Articles by authors
	JI Xiao-hao
	WANG Bao-liang
	WANG Xiao-di
	SHI Xiang-bin
	LIU Pei-pei
	LIU Feng-zhi
	WANG Hai-bo

Cite this article:

JI Xiao-hao, WANG Bao-liang, WANG Xiao-di, SHI Xiang-bin, LIU Pei-pei, LIU Feng-zhi, WANG Hai-bo. 2019. Effects of different color paper bags on aroma development of Kyoho grape berries. Journal of Integrative Agriculture, 18(1): 70-82.

Buratti S, Rizzolo A, Benedetit S, Torreggiani D. 2006. Electronic nose to detect strawberry aroma changes during osmotic dehydration. Journal of Food Science, 71, 184–189.
Crookes P R, Grierson D. 1983. Ultrastructure of tomato fruit ripening and the role of polygalacturonase isoenzymes in cell wall degradation. Plant Physiology, 73, 1088–1093.
Duan L S, Kuai C H, Liu C H. 2011. Effect of different kinds of bags on the inner temperature and grape sunburn. Sino-Overseas Grapevine & Wine, 11, 27–29. (in Chinese)
Fenoll J, Manso A, Hellín P, Ruiz L, Flores P. 2009. Changes in the aromatic composition of the Vitis vinifera grape Muscat Hamburg during ripening. Food Chemistry, 114, 420–428.
Gunate Y, Bayonove C, Baumes R, Cordonnier R. 1985. The aroma of grapes. Localization and evolution of free and bound fractions of some grape aroma components c.v. Muscat during first development and maturation. Journal of the Science of Food and Agriculture, 36, 857–862.
Huang C H, Yu B, Teng Y W, Su J, Shu Q, Cheng Z Q, Zeng L Q. 2009. Effects of fruit bagging on coloring and related physiology, and qualities of red Chinese sand pears during fruit maturation. Scientia Horticulturate, 121, 149–158.
Ji X H, Wang H B, Zhang K K, Wang X D, Shi X B, Wang B L, Zheng X C, Wang Z Q, Liu F Z. 2016. The grape anthocyanin biosynthesis regulation by different color fruit bags. Scientia Agricultura Sinica, 49, 4460–4468. (in Chinese)
Jia H J, Araki A, Okamoto G. 2005. Influence of fruit bagging on aroma volatiles and skin coloration of ‘Hakuho’ peach (Prunus persica Batsch). Postharvest Biology and Technology, 35, 61–68.
Kalua C M, Boss P K. 2009. Evolution of volatile compounds during the development of Cabernet Sauvignon grapes (Vitis vinifera L.). Journal of Agricultural and Food Chemistry, 57, 3818–3830.
Ke D Y, Zhou L L, Kader A A. 1994. Mode of oxygen and carbon dioxide action on strawberry ester biosynthesis. Journal of the American Society for Horticultural Science, 119, 971–975.
Kitagawa H, Manabe K, Esguerra E B. 1992. Bagging of fruit on the tree to control disease. Acta Horticulturae, 321, 870–875.
Kong Q S. 2004. The Grape of China. China Agricultural Science and Technology Press, Beijing. (in Chinese)
Larsen M, Watkins C B. 1995. Firmness and concentrations of acetaldehyde, ethyl acetate and ethanol in strawberries stored in controlled and modified atomospheres. Postharvest Biology and Technology, 5, 39–50.
Li C Y, Chang Y Y, Shang J Y, Ge Y H. 2006. Effect of bagging on pigment of berry skin and fruit quality in Red Globe grape. Sino-Overseas Grapevine & Wine, 2, 9–12. (in Chinese)
Liu H F, Wu B H, Fan P G, Li S H, Li L S. 2006. Sugar and acid concentrations in 98 grape cultivars analyzed by principal component analysis. Journal of the Science of Food and Agriculture, 86, 1526–1536.
Pérez A G, Rios J J, Sanz C, Olías J M. 1992. Aroma components and free amino acids in strawberry variety chandler during ripening. Journal of Agricultural and Food Chemistry, 40, 2232–2235.
Podolyan A, White J, Jordan B, Winefield C. 2010. Identification of the lipoxygenase gene family from Vitis vinifera and biochemical characterisation of two 13-lipoxygenases expressed in grape berries of Sauvignon Blanc. Functional Plant Biology, 37, 767–784.
Sasaki K, Takase H, Matsuyama S, Kobayashi H, Matsuo H, Ikoma G, Takata R. 2016. Effect of light exposure on linalool biosynthesis and accumulation in grape berries. Bioscience, Biotechnology, and Biochemistry, 80, 2376–2382.
Son I C, Lee C H. 2008. The effects of bags with different light transmittance on the berry cracking of grape Kyoho. Horticulture Environment and Biotechnology, 49, 98–103.
Souleyre E J F, Greenwood D R, Friel E N, Karunairetnam S, Newcomb R D. 2005. An alcohol acyl transferase from apple (cv. Royal Gala), MpAAT1, produces esters involved in apple fruit flavor. FEBS Journal, 272, 3132–3144.
Tesnière C, Verriès C. 2000. Molecular cloning and expression of cDNAs encoding alcohol dehydrogenases from Vitis vinifera L. during berry development. Plant Science, 157, 77–88.
Vilanova M, Genisheva Z, Bescansa L, Masa A, Oliveira J M. 2012. Changes in free and bound fractions of aroma compounds of four Vitis vinifera cultivars at the last ripening stages. Phytochemistry, 74, 196–205.
Wang H B, Zhang K K, Ji X H, Wang X D, Shi X B, Wang B L, Zheng X C, Liu F Z. 2017. Effects of different color paper bags on volatile constituents of Kyoho grape berries. Chinese Journal of Applied Ecology, 28, 1274–1280. (in Chinese)
Wang J H, Luca V D. 2005. The biosynthesis and regulation of biosynthesis of Concord grape fruit esters, including ‘foxy’ methylanthranilate. The Plant Journal, 44, 606–619.
Wang J Y, Jiao F, Hou X D, Tao J M. 2017. Effects of bagging treatments with different materials on aroma components and their biosynthetic gene expression in ‘Shine Muscat’ grape berry. Journal of Fruit Science, 34, 1–11. (in Chinese)
Yang C X, Wang Y J, Liang Z C, Fan P G, Wu B H, Yang L, Wang Y N, Li S H. 2009. Volatiles of grape berries evaluated at the germplasm level by headspace-SPME with GC-MS. Food Chemistry, 114, 1106–1114.
Yang C X, Wang Y J, Wu B H, Fang J B, Li S H. 2011. Volatile compounds evolution of three table grapes with different flavour during and after maturation. Food Chemistry, 128, 823–830.
Zhang D P, Li M, Wang Y. 1997. Ultrastructural changes in the mesocarp cells of grape berry during its development. Acta Botanica Sinica, 39, 389–396. (in Chinese)
Zhang E P, Chai F M, Zhang H H, Li S H, Liang Z C, Fan P G. 2017. Effects of sunlight exclusion on the profiles of monoterpene biosynthesis and accumulation in grape exocarp and mesocarp. Food Chemistry, 237, 379–389.
Zhang H H, Fan P G, Liu C X, Wu B H, Li S H, Liang Z C. 2014. Sunlight exclusion from Muscat grape alters volatile profiles during berry development. Food Chemistry, 161, 242–250.
Zhang L, Jia Y, Wang J Y, Tao J M. 2014. Effects of bagging on anthocyanins component and biosynthetic genes expression in ‘Manicure finger’ grape. Journal of Fruit Science, 31, 1032–1039. (in Chinese)
Zhou J M, Cao Y P, Jia M B, Shao X J. 2013. Analysis of aroma components in Kyoho grapes from different regions of Shandong. Sino-Overseas Grapevine & Wine, 2, 16–20. (in Chinese)
Zhou X B, Guo X W. 2006. Effect of bagging on the berry pigment formation and PPO, PAL activity in Red Globe. Sino-Overseas Grapevine & Wine, 6, 8–12. (in Chinese)
Zhu B Q, Xu X Q, Wu Y W, Duan C Q, Pan Q H. 2012. Isolation and characterization of two hydroperoxide lyase genes from grape berries. Molecular Biology Reports, 39, 7443–7455.

[1]	LIU Cong, LI De-xiong, HUANG Xian-biao, Zhang Fu-qiong, Xie Zong-zhou, Zhang Hong-yan, Liu Ji-hong. *Manual thinning increases fruit size and sugar content of Citrus* reticulata Blanco and affects hormone synthesis and sugar transporter activity**[J]. >Journal of Integrative Agriculture, 2022, 21(3): 725-735.
[2]	JI Xiao-hao, WANG Bao-liang, WANG Xiao-di, WANG Xiao-long, LIU Feng-zhi, WANG Hai-bo. Differences of aroma development and metabolic pathway gene expression between Kyoho and 87-1 grapes[J]. >Journal of Integrative Agriculture, 2021, 20(6): 1525-1539.
[3]	ZHU Shi-ping, HUANG Tao-jiang, YU Xin, HONG Qi-bin, XIANG Jin-song, ZENG An-zhong, GONG Gui-zhi, ZHAO Xiao-chun. The effects of rootstocks on performances of three late-ripening navel orange varieties[J]. >Journal of Integrative Agriculture, 2020, 19(7): 1802-1812.
[4]	ZOU Jie, HU Wei, LI Yu-xia, HE Jia-qi, ZHU Hong-hai, ZHOU Zhi-guo . *Screening of drought resistance indices and evaluation of drought resistance in cotton (Gossypium hirsutum* L.)** [J]. >Journal of Integrative Agriculture, 2020, 19(2): 495-508.
[5]	LI Fu-xiang, LI Fu-hua, YANG Ya-xuan, YIN Ran, MING Jian. *Comparison of phenolic profiles and antioxidant activities in skins and pulps of eleven grape cultivars (Vitis vinifera* L.)**[J]. >Journal of Integrative Agriculture, 2019, 18(5): 1148-1158.
[6]	ZHONG Yun-peng, QI Xiu-juan, CHEN Jin-yong, LI Zhi, BAI Dan-feng, WEI Cui-guo, FANG Jin-bao . Growth and physiological responses of four kiwifruit genotypes to salt stress and resistance evaluation[J]. >Journal of Integrative Agriculture, 2019, 18(1): 83-95.
[7]	YANG Juan, YU Hai-yan, LI Xiang-ju, DONG Jin-gao. *Genetic diversity and population structure of Commelina communis* in China based on simple sequence repeat markers**[J]. >Journal of Integrative Agriculture, 2018, 17(10): 2292-2301.
[8]	WANG Yan-xiu, HU Ya, CHEN Bai-hong, ZHU Yan-fang, Mohammed Mujitaba Dawuda, Sofkova Svetla. Physiological mechanisms of resistance to cold stress associated with 10 elite apple rootstocks[J]. >Journal of Integrative Agriculture, 2018, 17(04): 857-866.
[9]	ZHENG Yong-qiang, YANG Qiong, JIA Xue-mei, LIU Yan-mei, HE Shao-lan, DENG Lie, XIE Rang-jin, YI Shi-lai, Lü Qiang . *Ca(NO₃)₂ canopy spraying during physiological fruit drop period has a better influence on the tree character and fruit quality of Newhall navel orange (Citrus sinensis* Osbeck)**[J]. >Journal of Integrative Agriculture, 2017, 16(07): 1513-1519.
[10]	Dirceu Mattos Jr, Franz W R Hippler, Rodrigo M Boaretto, Eduardo S Stuchi, José A Quaggio . Soil boron fertilization: The role of nutrient sources and rootstocks in citrus production[J]. >Journal of Integrative Agriculture, 2017, 16(07): 1609-1616.

No Suggested Reading articles found!

Viewed

Full text

Abstract

Cited

Shared

Discussed

Cite this article:

About JIA

Editorial board

For authors